Manfred Opper scite author profile

We develop an approach for sparse representations of Gaussian Process (GP) models (which are Bayesian types of kernel machines) in order to overcome their limitations for large data sets. The method is based on a combination of a Bayesian online algorithm together with a sequential construction of a relevant subsample of the data which fully specifies the prediction of the GP model. By using an appealing parametrisation and projection techniques that use the RKHS norm, recursions for the effective parameters and a sparse Gaussian approximation of the posterior process are obtained. This allows both for a propagation of predictions as well as of Bayesian error measures. The significance and robustness of our approach is demonstrated on a variety of experiments.

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Optimal control as a graphical model inference problem

Kappen

2012

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We reformulate a class of non-linear stochastic optimal control problems introduced by Todorov (in Advances in Neural Information Processing Systems, vol. 19, pp. 1369Systems, vol. 19, pp. -1376Systems, vol. 19, pp. , 2007) as a Kullback-Leibler (KL) minimization problem. As a result, the optimal control computation reduces to an inference computation and approximate inference methods can be applied to efficiently compute approximate optimal controls. We show how this KL control theory contains the path integral control method as a special case. We provide an example of a block stacking task and a multi-agent cooperative game where we demonstrate how approximate inference can be successfully applied to instances that are too complex for exact computation. We discuss the relation of the KL control approach to other inference approaches to control.

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Common Input Explains Higher-Order Correlations and Entropy in a Simple Model of Neural Population Activity

2011

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Simultaneously recorded neurons exhibit correlations whose underlying causes are not known. Here, we use a population of threshold neurons receiving correlated inputs to model neural population recordings. We show analytically that small changes in second-order correlations can lead to large changes in higher-order redundancies, and that the resulting interactions have a strong impact on the entropy, sparsity, and statistical heat capacity of the population. Our findings for this simple model may explain some surprising effects recently observed in neural population recordings.

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Phase transition and 1/fnoise in a game dynamical model

1992

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We study a population of interacting species, described by the replicator model well established in theoretical biology. Using methods of statistical physics we present an exact steady state solution to the model as a function of the population's cooperation pressure u when the number of species is large and the interactions are taken as random. When u is lowered to a critical value u c , the solution becomes unstable. This phase transition manifests itself by a 1/f behaviour in the powerspectrum of the system's response against weak external noise.

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Manfred Opper

Query by committee

Sparse On-Line Gaussian Processes

Optimal control as a graphical model inference problem

Common Input Explains Higher-Order Correlations and Entropy in a Simple Model of Neural Population Activity

Phase transition and 1/fnoise in a game dynamical model

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